KAI-01150
1280 (H) x 720 (V) Interline
CCD Image Sensor
Description
The ON Semiconductor KAI−01150 Image Sensor is a 720p format
(1280 x 720 pixel) CCD in a 1/2” optical format. Based on the
TRUESENSE 5.5 micron Interline Transfer CCD Platform, the sensor
features broad dynamic range, excellent imaging performance, and a
flexible readout architecture that enables use of 1, 2, or 4 outputs for
full resolution readout of 138 frames per second. A vertical overflow
drain structure suppresses image blooming and enables electronic
shuttering for precise exposure control.
Table 1. GENERAL SPECIFICATIONS
Parameter
Architecture
Total Number of Pixels
Number of Effective Pixels
Number of Active Pixels
Pixel Size
Active Image Size
Aspect Ratio
Number of Outputs
Charge Capacity
Output Sensitivity
Quantum Efficiency
Pan
(−ABA,
−QBA, −PBA)
R, G, B (−FBA,
−QBA)
R, G, B (−CBA,
−PBA)
Base ISO
KAI−01150−ABA
KAI−01150−FBA
KAI−01150−CBA
KAI−01150−PBA
Read Noise (f = 40 MHz)
Dark Current
Photodiode / VCCD
Dark Current Doubling Temp
Photodiode / VCCD
Dynamic Range
Charge Transfer Efficiency
Blooming Suppression
Smear
Image Lag
Maximum Pixel Clock Speed
Maximum Frame Rate
Quad / Dual / Single Output
Package Options
Cover Glass
Typical Value
Interline CCD, Progressive Scan
1364 (H)
×
760 (V)
1320 (H)
×
736 (V)
1280 (H)
×
720 (V)
5.5
mm
(H)
×
5.5
mm
(V)
7.04 mm (H)
×
3.96 mm (V)
8.08 mm (diag.), 1/2″ Optical Format
16:9
1, 2, or 4
20,000 electrons
34
mV/e
−
44%
31%, 37%, 38%
29%, 37%, 39%
330
170
150
330
12 e
−
rms
7 / 140 e
−
/s
7°C / 9°C
64 dB
0.999999
> 300 X
−100
dB
< 10 electrons
40 MHz
138 / 69 / 36 fps
68 Pin PGA
64 Pin CLCC
AR Coated, 2-Sides or
Clear Glass
www.onsemi.com
Figure 1. KAI−01150 Interline CCD
Image Sensor
Features
•
Bayer Color Pattern, TRUESENSE Sparse
•
•
•
•
•
•
•
Color Filter Pattern, and Monochrome
Configurations
Progressive Scan Readout
Flexible Readout Architecture
High Frame Rate
High Sensitivity
Low Noise Architecture
Excellent Smear Performance
Package Pin Reserved for Device
Identification
Applications
•
Intelligent Traffic Systems
•
Security / Surveillance
•
Industrial Imaging
ORDERING INFORMATION
See detailed ordering and shipping information on page 2 of
this data sheet.
NOTE: All Parameters are specified at T = 40°C unless otherwise noted.
©
Semiconductor Components Industries, LLC, 2015
August, 2015
−
Rev. 5
1
Publication Order Number:
KAI−01150/D
KAI−01150
The sensor is available with the TRUESENSE Sparse
Color Filter Pattern, a technology which provides a 2x
improvement in light sensitivity compared to a standard
color Bayer part.
The sensor shares common PGA pin−out and electrical
configurations with other devices based on the
TRUESENSE 5.5 micron Interline Transfer CCD Platform,
allowing a single camera design to support multiple
members of this sensor family.
ORDERING INFORMATION
Standard Devices
See full datasheet for ordering information associated with devices no longer recommended for new designs.
Table 2. ORDERING INFORMATION
−
STANDARD DEVICES
Part Number
KAI−01150−ABA−JD−BA
KAI−01150−ABA−JD−AE
KAI−01150−ABA−FD−BA
KAI−01150−ABA−FD−AE
KAI−01150−FBA−JD−BA
KAI−01150−FBA−JD−AE
KAI−01150−FBA−FD−BA
KAI−01150−FBA−FD−AE
KAI−01150−FBA−JB−B2
KAI−01150−FBA−JB−AE
KAI−01150−QBA−JD−BA
KAI−01150−QBA−JD−AE
KAI−01150−QBA−FD−BA
KAI−01150−QBA−FD−AE
Description
Monochrome, Telecentric Microlens, PGA Package, Sealed Clear Cover Glass with
AR Coating (Both Sides), Standard Grade
Monochrome, Telecentric Microlens, PGA Package, Sealed Clear Cover Glass with
AR Coating (Both Sides), Engineering Grade
Monochrome, Telecentric Microlens, CLCC Package, Sealed Clear Cover Glass
with AR Coating (Both Sides), Standard Grade
Monochrome, Telecentric Microlens, CLCC Package, Sealed Clear Cover Glass
with AR Coating (Both Sides), Engineering Grade
Gen2 Color (Bayer RGB), Telecentric Microlens, PGA Package, Sealed Clear
Cover Glass with AR Coating (Both Sides), Standard Grade
Gen2 Color (Bayer RGB), Telecentric Microlens, PGA Package, Sealed Clear
Cover Glass with AR Coating (Both Sides), Engineering Grade
Gen2 Color (Bayer RGB), Telecentric Microlens, CLCC Package, Sealed Clear
Cover Glass with AR Coating (Both Sides), Standard Grade
Gen2 Color (Bayer RGB), Telecentric Microlens, CLCC Package, Sealed Clear
Cover Glass with AR Coating (Both Sides), Engineering Grade
Gen2 Color (Bayer RGB), Telecentric Microlens, PGA Package, Sealed Clear
Cover Glass (no coatings), Grade 2
Gen2 Color (Bayer RGB), Telecentric Microlens, PGA Package, Sealed Clear
Cover Glass (no coatings), Engineering Grade
Gen2 Color (TRUESENSE Sparse CFA), Telecentric Microlens, PGA Package,
Sealed Clear Cover Glass with AR Coating (Both Sides), Standard Grade
Gen2 Color (TRUESENSE Sparse CFA), Telecentric Microlens, PGA Package,
Sealed Clear Cover Glass with AR Coating (Both Sides), Engineering Grade
Gen2 Color (TRUESENSE Sparse CFA), Telecentric Microlens, CLCC Package,
Sealed Clear Cover Glass with AR Coating (Both Sides), Standard Grade
Gen2 Color (TRUESENSE Sparse CFA), Telecentric Microlens, CLCC Package,
Sealed Clear Cover Glass with AR Coating (Both Sides), Engineering Grade
KAI−01150−QBA
Serial Number
KAI−01150−FBA
Serial Number
KAI−01150−ABA
Serial Number
Marking Code
See the ON Semiconductor
Device Nomenclature
document (TND310/D) for a full description of the naming convention
used for image sensors. For reference documentation, including information on evaluation kits, please visit our web site at
www.onsemi.com.
www.onsemi.com
2
KAI−01150
Not Recommended for New Designs
Table 3. ORDERING INFORMATION
−
NOT RECOMMENDED FOR NEW DESIGNS
Part Number
KAI−01150−CBA−JD−BA
KAI−01150−CBA−JD−AE
KAI−01150−CBA−FD−BA
KAI−01150−CBA−FD−AE
KAI−01150−CBA−JB−B2
KAI−01150−CBA−JB−AE
KAI−01150−PBA−JD−BA
KAI−01150−PBA−JD−AE
KAI−01150−PBA−FD−BA
KAI−01150−PBA−FD−AE
Description
Gen1 Color (Bayer RGB), Telecentric Microlens, PGA Package, Sealed Clear
Cover Glass with AR Coating (Both Sides), Standard Grade
Gen1 Color (Bayer RGB), Telecentric Microlens, PGA Package, Sealed Clear
Cover Glass with AR Coating (Both Sides), Engineering Grade
Gen1 Color (Bayer RGB), Telecentric Microlens, CLCC Package, Sealed Clear
Cover Glass with AR Coating (Both Sides), Standard Grade
Gen1 Color (Bayer RGB), Telecentric Microlens, CLCC Package, Sealed Clear
Cover Glass with AR Coating (Both Sides), Engineering Grade
Gen1 Color (Bayer RGB), Telecentric Microlens, PGA Package, Sealed Clear
Cover Glass (no coatings), Grade 2
Gen1 Color (Bayer RGB), Telecentric Microlens, PGA Package, Sealed Clear
Cover Glass (no coatings), Engineering Grade
Gen1 Color (TRUESENSE Sparse CFA), Telecentric Microlens, PGA Package,
Sealed Clear Cover Glass with AR Coating (Both Sides), Standard Grade
Gen1 Color (TRUESENSE Sparse CFA), Telecentric Microlens, PGA Package,
Sealed Clear Cover Glass with AR Coating (Both Sides), Engineering Grade
Gen1 Color (TRUESENSE Sparse CFA), Telecentric Microlens, CLCC Package,
Sealed Clear Cover Glass with AR Coating (Both Sides), Standard Grade
Gen1 Color (TRUESENSE Sparse CFA), Telecentric Microlens, CLCC Package,
Sealed Clear Cover Glass with AR Coating (Both Sides), Engineering Grade
KAI−01150−PBA
Serial Number
KAI−01150−CBA
Serial Number
Marking Code
www.onsemi.com
3
KAI−01150
DEVICE DESCRIPTION
Architecture
H2Bc
H2Sc
H1Bc
H1Sc
H2Bd
H2Sd
H1Bd
H1Sd
SUB
RDc
Rc
VDDc
VOUTc
GND
OGc
H2SLc
V1T
V2T
V3T
V4T
RDd
Rd
VDDd
VOUTd
GND
OGd
H2SLd
V1T
V2T
V3T
V4T
DevID
ESD
22
20
1 10 22
20
640
1 Dummy
12
8
640
20
22 10 1
V1B
V2B
V3B
V4B
8 Buffer
1 10 22
GND
OGa
H2SLa
Dark Reference Pixels
There are 12 dark reference rows at the top and 12 dark
rows at the bottom of the image sensor. The dark rows are not
entirely dark and so should not be used for a dark reference
level. Use the 22 dark columns on the left or right side of the
image sensor as a dark reference.
Under normal circumstances use only the center 20
columns of the 22 column dark reference due to potential
light leakage.
Dummy Pixels
Within each horizontal shift register there are 11 leading
additional shift phases. These pixels are designated as
dummy pixels and should not be used to determine a dark
reference level.
In addition, there is one dummy row of pixels at the top
and bottom of the image.
Active Buffer Pixels
20 unshielded pixels adjacent to any leading or trailing
dark reference regions are classified as active buffer pixels.
ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ
ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ
RDa
Ra
VDDa
VOUTa
ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ
1280 (H)
×
720 (V)
5.5
mm
×
5.5
mm
Pixels
20
22
12 Dark
1 Dummy
(Last VCCD Phase = V1
→
H1S)
ESD
V1B
V2B
V3B
V4B
20
640
640
20
22 10 1
RDb
Rb
VDDb
VOUTb
GND
OGb
H2SLb
H2Ba
H2Sa
H1Ba
H1Sa
Figure 2. Block Diagram
www.onsemi.com
4
SUB
These pixels are light sensitive but are not tested for defects
and non-uniformities.
Image Acquisition
An electronic representation of an image is formed when
incident photons falling on the sensor plane create
electron-hole pairs within the individual silicon
photodiodes. These photoelectrons are collected locally by
the formation of potential wells at each photosite. Below
photodiode saturation, the number of photoelectrons
collected at each pixel is linearly dependent upon light level
and exposure time and non-linearly dependent on
wavelength. When the photodiodes charge capacity is
reached, excess electrons are discharged into the substrate to
prevent blooming.
ESD Protection
Adherence to the power-up and power-down sequence is
critical. Failure to follow the proper power-up and
power-down sequences may cause damage to the sensor. See
Power-Up and Power-Down Sequence section.
H2Bb
H2Sb
H1Bb
H1Sb
KAI−01150
Bayer Color Filter Pattern
H2Bc
H2Sc
H1Bc
H1Sc
H2Bd
H2Sd
H1Bd
H1Sd
SUB
RDc
Rc
VDDc
VOUTc
GND
OGc
H2SLc
V1T
V2T
V3T
V4T
RDd
Rd
VDDd
VOUTd
GND
OGd
H2SLd
V1T
V2T
V3T
V4T
ESD
V1B
V2B
V3B
V4B
RDa
Ra
VDDa
VOUTa
GND
OGa
H2SLa
1 10 22 20
TRUESENSE Sparse Color Filter Pattern
H2Bc
H2Sc
H1Bc
H1Sc
H2Bd
H2Sd
H1Bd
H1Sd
SUB
RDc
Rc
VDDc
VOUTc
GND
OGc
H2SLc
V1T
V2T
V3T
V4T
RDd
Rd
VDDd
VOUTd
GND
OGd
H2SLd
V1T
V2T
V3T
V4T
1 10 22 20
ESD
V1B
V2B
V3B
V4B
RDa
Ra
VDDa
VOUTa
GND
OGa
H2SLa
1 10 22 20
ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ
ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ
1 Dummy
12
8
B G
G R
B G
G R
1 10 22 20
640
640
20 22 10 1
DevID
22
20
1280 (H)
×
720 (V)
5.5
mm
×
5.5
mm
Pixels
20 22
ESD
B G
G R
B G
G R
V1B
V2B
V3B
V4B
RDb
Rb
VDDb
VOUTb
GND
OGb
H2SLb
ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ
ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ
12 Dark
1 Dummy
(Last VCCD Phase = V1
→
H1S)
640
640
20 22 10 1
8 Buffer
Figure 3. Bayer Color Filter Pattern
ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ
ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ
H2Ba
H2Sa
H1Ba
H1Sa
640
1 Dummy
12
8
SUB
H2Bb
H2Sb
H1Bb
H1Sb
640
20 22 10 1
G
P
B
P
P
G
P
B
R
P
G
P
P
R
P
G
G
P
B
P
P
G
P
B
R
P
G
P
P
R
P
G
DevID
22
20
1280 (H)
×
720 (V)
5.5
mm
×
5.5
mm
Pixels
20 22
ESD
G
P
B
P
P
G
P
B
R
P
G
P
P
R
P
G
G
P
B
P
P
G
P
B
R
P
G
P
P
R
P
G
V1B
V2B
V3B
V4B
RDb
Rb
VDDb
VOUTb
GND
OGb
H2SLb
8 Buffer
ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ
ÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉÉ
640
640
20 22 10 1
12 Dark
1 Dummy
(Last VCCD Phase = V1
→
H1S)
Figure 4. TRUESENSE Sparse Color Filter Pattern
www.onsemi.com
5
H2Ba
H2Sa
H1Ba
H1Sa
SUB
H2Bb
H2Sb
H1Bb
H1Sb
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